mirror of
https://github.com/trezor/trezor-firmware.git
synced 2024-11-23 07:58:09 +00:00
688 lines
16 KiB
C++
688 lines
16 KiB
C++
// Copyright 2014 Google Inc. All rights reserved.
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//
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file or at
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// https://developers.google.com/open-source/licenses/bsd
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// Basic U2F HID framing compliance test.
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <time.h>
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#include <iostream>
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#include <iomanip>
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#include "u2f_util.h"
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using namespace std;
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int arg_Verbose = 0; // default
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bool arg_Pause = false; // default
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bool arg_Abort = true; // default
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bool arg_Time = false; // default
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float recvTimeout = 5.0;
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static
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void checkPause() {
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if (arg_Pause) {
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printf("\nPress any key to continue..");
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getchar();
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printf("\n");
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}
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}
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static
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void AbortOrNot() {
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checkPause();
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if (arg_Abort) exit(3);
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cerr << "(continuing -a)" << endl;
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}
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struct U2Fob* device;
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#define SEND(f) CHECK_EQ(0, U2Fob_sendHidFrame(device, &f))
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#define RECV(f, t) CHECK_EQ(0, U2Fob_receiveHidFrame(device, &f, t))
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// Initialize a frame with |len| random payload, or data.
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void initFrame(U2FHID_FRAME* f, uint32_t cid, uint8_t cmd,
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size_t len, const void* data = NULL) {
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memset(f, 0, sizeof(U2FHID_FRAME));
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f->cid = cid;
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f->init.cmd = cmd | TYPE_INIT;
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f->init.bcnth = (uint8_t) (len >> 8);
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f->init.bcntl = (uint8_t) len;
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for (size_t i = 0; i < min(len, sizeof(f->init.data)); ++i) {
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f->init.data[i] = data ? ((const uint8_t*)data)[i] : (rand() & 255);
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}
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}
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// Initialize a continue frame
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void contFrame(U2FHID_FRAME* f, uint32_t cid, uint8_t seqno, uint8_t val) {
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memset(f, val, sizeof(U2FHID_FRAME));
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f->cid = cid;
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f->cont.seq = seqno & ~TYPE_INIT;
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}
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// Return true if frame r is error frame for expected error.
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bool isError(const U2FHID_FRAME r, int error) {
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return
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r.init.cmd == U2FHID_ERROR &&
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MSG_LEN(r) == 1 &&
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r.init.data[0] == error;
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}
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// Test basic INIT.
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// Returns basic capabilities field.
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uint8_t test_BasicInit() {
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U2FHID_FRAME f, r;
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initFrame(&f, U2Fob_getCid(device), U2FHID_INIT, INIT_NONCE_SIZE);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(r.init.cmd, U2FHID_INIT);
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CHECK_EQ(MSG_LEN(r), sizeof(U2FHID_INIT_RESP));
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CHECK_EQ(memcmp(&f.init.data[0], &r.init.data[0], INIT_NONCE_SIZE), 0);
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CHECK_EQ(r.init.data[12], U2FHID_IF_VERSION);
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return r.init.data[16];
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}
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// Test we have a working (single frame) echo.
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void test_Echo() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 8);
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U2Fob_deltaTime(&t);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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// Expect echo somewhat quickly.
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if (arg_Time)
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CHECK_LT(U2Fob_deltaTime(&t), .1);
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// Check echoed content matches.
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CHECK_EQ(U2FHID_PING, r.init.cmd);
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CHECK_EQ(MSG_LEN(f), MSG_LEN(r));
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CHECK_EQ(0, memcmp(f.init.data, r.init.data, MSG_LEN(f)));
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}
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// Test we can echo message larger than a single frame.
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void test_LongEcho() {
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const size_t TESTSIZE = 1024;
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uint8_t challenge[TESTSIZE];
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uint8_t response[TESTSIZE];
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uint8_t cmd = U2FHID_PING;
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for (size_t i = 0; i < sizeof(challenge); ++i) challenge[i] = rand();
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uint64_t t = 0; U2Fob_deltaTime(&t);
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CHECK_EQ(0, U2Fob_send(device, cmd, challenge, sizeof(challenge)));
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float sent = U2Fob_deltaTime(&t);
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CHECK_EQ(sizeof(response),
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U2Fob_recv(device, &cmd, response, sizeof(response), 2.0));
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float received = U2Fob_deltaTime(&t);
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CHECK_EQ(cmd, U2FHID_PING);
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CHECK_EQ(0, memcmp(challenge, response, sizeof(challenge)));
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INFO << "sent: " << sent << ", received: " << received;
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// Expected transfer times for 2ms bInterval.
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// We do not want fobs to be too slow or too agressive.
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if (device->dev != NULL && arg_Time) {
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CHECK_GE(sent, .020);
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CHECK_LE(sent, .075);
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CHECK_GE(received, .020);
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CHECK_LE(received, .075);
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}
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}
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// Execute WINK, if implemented.
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// Visually inspect fob for compliance.
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void test_OptionalWink() {
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U2FHID_FRAME f, r;
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uint8_t caps = test_BasicInit();
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initFrame(&f, U2Fob_getCid(device), U2FHID_WINK, 0);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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if (caps & CAPFLAG_WINK) {
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CHECK_EQ(f.init.cmd, r.init.cmd);
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CHECK_EQ(MSG_LEN(r), 0);
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} else {
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CHECK_EQ(isError(r, ERR_INVALID_CMD), true);
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}
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}
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// Test max data size limit enforcement.
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// We try echo 7610 bytes.
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// Device should pre-empt communications with error reply.
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void test_Limits() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 7610);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(isError(r, ERR_INVALID_LEN), true);
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}
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// Check there are no frames pending for this cid.
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// Poll for a frame with short timeout.
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// Make sure none got received and timeout time passed.
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void test_Idle(float timeOut = .3) {
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U2FHID_FRAME r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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U2Fob_deltaTime(&t);
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CHECK_EQ(-ERR_MSG_TIMEOUT, U2Fob_receiveHidFrame(device, &r, timeOut));
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CHECK_GE(U2Fob_deltaTime(&t), .2);
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CHECK_LE(U2Fob_deltaTime(&t), .5);
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}
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// Check we get a timeout error frame if not sending TYPE_CONT frames
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// for a message that spans multiple frames.
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// Device should timeout at ~.5 seconds.
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void test_Timeout() {
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U2FHID_FRAME f, r;
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float measuredTimeout;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 99);
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U2Fob_deltaTime(&t);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(isError(r, ERR_MSG_TIMEOUT), true);
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measuredTimeout = U2Fob_deltaTime(&t);
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INFO << "measured timeout: " << measuredTimeout;
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CHECK_GE(measuredTimeout, .4); // needs to be at least 0.4 seconds
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if (arg_Time)
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CHECK_LE(measuredTimeout, 1.0); // but at most 1.0 seconds
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}
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// Test LOCK functionality, if implemented.
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void test_Lock() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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uint8_t caps = test_BasicInit();
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// Check whether lock is supported using an unlock command.
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initFrame(&f, U2Fob_getCid(device), U2FHID_LOCK, 1, "\x00");
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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if (!(caps & CAPFLAG_LOCK)) {
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// Make sure CAPFLAG reflects behavior.
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CHECK_EQ(isError(r, ERR_INVALID_CMD), true);
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return;
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}
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// Lock channel for 3 seconds.
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initFrame(&f, U2Fob_getCid(device), U2FHID_LOCK, 1, "\x03");
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(f.init.cmd, r.init.cmd);
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CHECK_EQ(0, MSG_LEN(r));
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// Rattle lock, checking for BUSY.
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int count = 0;
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do {
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// The requested channel timeout (3 seconds) resets
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// after every message, so we only send a couple of
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// messages down the channel in this loop. Otherwise
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// the lock would never expire.
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if (++count < 2) test_Echo();
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usleep(100000);
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initFrame(&f, U2Fob_getCid(device) ^ 1, U2FHID_PING, 1);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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if (r.init.cmd == U2FHID_ERROR) {
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// We only expect BUSY here.
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CHECK_EQ(isError(r, ERR_CHANNEL_BUSY), true);
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}
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} while (r.init.cmd == U2FHID_ERROR);
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CHECK_GE(U2Fob_deltaTime(&t), 2.5);
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}
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// Check we get abort if we send TYPE_INIT when TYPE_CONT is expected.
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void test_NotCont() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 99); // Note 99 > frame.
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SEND(f);
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SEND(f); // Send frame again, i.e. another TYPE_INIT frame.
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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if (arg_Time)
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CHECK_LT(U2Fob_deltaTime(&t), .1); // Expect fail reply quickly.
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CHECK_EQ(isError(r, ERR_INVALID_SEQ), true);
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// Check there are no further messages.
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CHECK_EQ(-ERR_MSG_TIMEOUT, U2Fob_receiveHidFrame(device, &r, 0.6f));
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}
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// Check we get a error when sending wrong sequence in continuation frame.
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void test_WrongSeq() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 99);
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SEND(f);
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f.cont.seq = 1 | TYPE_CONT; // Send wrong SEQ, 0 is expected.
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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if (arg_Time)
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CHECK_LT(U2Fob_deltaTime(&t), .1); // Expect fail reply quickly.
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CHECK_EQ(isError(r, ERR_INVALID_SEQ), true);
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// Check there are no further messages.
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CHECK_EQ(-ERR_MSG_TIMEOUT, U2Fob_receiveHidFrame(device, &r, 0.6f));
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}
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// Check we hear nothing if we send a random CONT frame.
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void test_NotFirst() {
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U2FHID_FRAME f, r;
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 8);
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f.cont.seq = 0 | TYPE_CONT; // Make continuation packet.
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SEND(f);
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CHECK_EQ(-ERR_MSG_TIMEOUT, U2Fob_receiveHidFrame(device, &r, 1.0));
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}
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// Check we get a BUSY if device is waiting for CONT on other channel.
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void test_Busy() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 99);
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SEND(f);
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f.cid ^= 1; // Flip channel.
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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if (arg_Time)
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CHECK_LT(U2Fob_deltaTime(&t), .1); // Expect busy reply quickly.
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CHECK_EQ(isError(r, ERR_CHANNEL_BUSY), true);
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f.cid ^= 1; // Flip back.
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(isError(r, ERR_MSG_TIMEOUT), true);
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CHECK_GE(U2Fob_deltaTime(&t), .45); // Expect T/O msg only after timeout.
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}
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// Check that fob ignores CONT frame for different cid.
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void test_Interleave() {
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U2FHID_FRAME f, r;
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uint64_t t = 0; U2Fob_deltaTime(&t);
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uint32_t cid0 = U2Fob_getCid(device);
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uint32_t cid1 = U2Fob_getCid(device) ^ 1;
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uint8_t expected;
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// Start a 2 frame request on cid 0
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initFrame(&f, cid0, U2FHID_PING, sizeof(f.cont.data) + sizeof(f.init.data));
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expected = f.init.data[0];
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SEND(f);
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// Interleave a 2 frame request on cid 1
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initFrame(&f, cid1, U2FHID_PING, sizeof(f.cont.data) + sizeof(f.init.data));
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SEND(f);
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contFrame(&f, cid1, 0, expected ^ 1);
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SEND(f);
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// Then send 2nd frame on cid 0
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contFrame(&f, cid0, 0, expected);
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SEND(f);
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// Expect CHANNEL_BUSY for cid 1
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RECV(r, recvTimeout);
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CHECK_EQ(r.cid, cid1);
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CHECK_EQ(isError(r, ERR_CHANNEL_BUSY), true);
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// Expect correct 2 frame reply for cid 0
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RECV(r, recvTimeout);
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CHECK_EQ(r.cid, cid0);
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CHECK_EQ(r.init.data[0], expected);
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RECV(r, recvTimeout);
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CHECK_EQ(r.cid, cid0);
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CHECK_EQ(r.cont.data[1], expected);
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// Expect nothing left to receive
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CHECK_EQ(-ERR_MSG_TIMEOUT, U2Fob_receiveHidFrame(device, &r, .5));
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}
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// Test INIT self aborts wait for CONT frame
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void test_InitSelfAborts() {
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U2FHID_FRAME f, r;
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 99);
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SEND(f);
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initFrame(&f, U2Fob_getCid(device), U2FHID_INIT, INIT_NONCE_SIZE);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(r.init.cmd, U2FHID_INIT);
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CHECK_GE(MSG_LEN(r), MSG_LEN(f));
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CHECK_EQ(memcmp(&f.init.data[0], &r.init.data[0], INIT_NONCE_SIZE), 0);
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test_NotFirst();
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}
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// Test INIT other does not abort wait for CONT.
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void test_InitOther() {
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U2FHID_FRAME f, f2, r;
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initFrame(&f, U2Fob_getCid(device), U2FHID_PING, 99);
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SEND(f);
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initFrame(&f2, U2Fob_getCid(device) ^ 1, U2FHID_INIT, INIT_NONCE_SIZE);
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SEND(f2);
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RECV(r, recvTimeout);
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CHECK_EQ(f2.cid, r.cid);
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// Expect sync reply for requester
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CHECK_EQ(r.init.cmd, U2FHID_INIT);
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CHECK_GE(MSG_LEN(r), MSG_LEN(f2));
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CHECK_EQ(memcmp(&f2.init.data[0], &r.init.data[0], INIT_NONCE_SIZE), 0);
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// Expect error frame after timeout on first channel.
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RECV(r, recvTimeout);
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CHECK_EQ(f.cid, r.cid);
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CHECK_EQ(isError(r, ERR_MSG_TIMEOUT), true);
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}
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void wait_Idle() {
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U2FHID_FRAME r;
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while (-ERR_MSG_TIMEOUT != U2Fob_receiveHidFrame(device, &r, .2f)) {
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}
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}
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void test_LeadingZero() {
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U2FHID_FRAME f, r;
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initFrame(&f, 0x100, U2FHID_PING, 10);
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(r.cid, f.cid);
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CHECK_EQ(r.init.cmd, U2FHID_PING);
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CHECK_EQ(MSG_LEN(f), MSG_LEN(r));
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}
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void test_InitOnNonBroadcastEchoesCID() {
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U2FHID_FRAME f, r;
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size_t cs = INIT_NONCE_SIZE;
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initFrame(&f, 0xdeadbeef, U2FHID_INIT, cs); // Use non-broadcast cid
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SEND(f);
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RECV(r, recvTimeout);
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CHECK_EQ(r.cid, f.cid);
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CHECK_EQ(r.init.cmd, U2FHID_INIT);
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CHECK_EQ(MSG_LEN(r), sizeof(U2FHID_INIT_RESP));
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CHECK_EQ(0, memcmp(f.init.data, r.init.data, cs));
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uint32_t cid =
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(r.init.data[cs + 0] << 24) |
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(r.init.data[cs + 1] << 16) |
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(r.init.data[cs + 2] << 8) |
|
|
(r.init.data[cs + 3] << 0);
|
|
|
|
CHECK_EQ(cid, 0xdeadbeef);
|
|
}
|
|
|
|
uint32_t test_Init(bool check = true) {
|
|
U2FHID_FRAME f, r;
|
|
size_t cs = INIT_NONCE_SIZE;
|
|
|
|
initFrame(&f, -1, U2FHID_INIT, cs); // -1 is broadcast channel
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(r.cid, f.cid);
|
|
|
|
// expect init reply
|
|
CHECK_EQ(r.init.cmd, U2FHID_INIT);
|
|
|
|
CHECK_EQ(MSG_LEN(r), sizeof(U2FHID_INIT_RESP));
|
|
|
|
// Check echo of challenge
|
|
CHECK_EQ(0, memcmp(f.init.data, r.init.data, cs));
|
|
|
|
uint32_t cid =
|
|
(r.init.data[cs + 0] << 0) |
|
|
(r.init.data[cs + 1] << 8) |
|
|
(r.init.data[cs + 2] << 16) |
|
|
(r.init.data[cs + 3] << 24);
|
|
|
|
if (check) {
|
|
// Check that another INIT yields a distinct cid.
|
|
CHECK_NE(test_Init(false), cid);
|
|
}
|
|
|
|
return cid;
|
|
}
|
|
|
|
void test_InitUnderLock() {
|
|
U2FHID_FRAME f, r;
|
|
uint8_t caps = test_BasicInit();
|
|
|
|
// Check whether lock is supported, using an unlock command.
|
|
initFrame(&f, U2Fob_getCid(device), U2FHID_LOCK, 1, "\x00"); // unlock
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(f.cid, r.cid);
|
|
|
|
if (!(caps & CAPFLAG_LOCK)) {
|
|
// Make sure CAPFLAG reflects behavior.
|
|
CHECK_EQ(isError(r, ERR_INVALID_CMD), true);
|
|
return;
|
|
}
|
|
|
|
initFrame(&f, U2Fob_getCid(device), U2FHID_LOCK, 1, "\x03"); // 3 seconds
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(f.cid, r.cid);
|
|
|
|
CHECK_EQ(f.init.cmd, r.init.cmd);
|
|
CHECK_EQ(0, MSG_LEN(r));
|
|
|
|
// We have a lock. CMD_INIT should work whilst another holds lock.
|
|
|
|
test_Init(false);
|
|
test_InitOnNonBroadcastEchoesCID();
|
|
|
|
// Unlock.
|
|
initFrame(&f, U2Fob_getCid(device), U2FHID_LOCK, 1, "\x00");
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(f.cid, r.cid);
|
|
|
|
CHECK_EQ(f.init.cmd, r.init.cmd);
|
|
CHECK_EQ(0, MSG_LEN(r));
|
|
}
|
|
|
|
void test_Unknown(uint8_t cmd) {
|
|
U2FHID_FRAME f, r;
|
|
|
|
initFrame(&f, U2Fob_getCid(device), cmd, 0);
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(f.cid, r.cid);
|
|
|
|
CHECK_EQ(isError(r, ERR_INVALID_CMD), true);
|
|
}
|
|
|
|
void test_OnlyInitOnBroadcast() {
|
|
U2FHID_FRAME f, r;
|
|
|
|
initFrame(&f, -1, U2FHID_PING, INIT_NONCE_SIZE);
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(f.cid, r.cid);
|
|
|
|
CHECK_EQ(isError(r, ERR_INVALID_CID), true);
|
|
}
|
|
|
|
void test_NothingOnChannel0() {
|
|
U2FHID_FRAME f, r;
|
|
|
|
initFrame(&f, 0, U2FHID_INIT, INIT_NONCE_SIZE);
|
|
|
|
SEND(f);
|
|
RECV(r, recvTimeout);
|
|
CHECK_EQ(f.cid, r.cid);
|
|
|
|
CHECK_EQ(isError(r, ERR_INVALID_CID), true);
|
|
}
|
|
|
|
int main(int argc, char* argv[]) {
|
|
if (argc < 2) {
|
|
cerr << "Usage: " << argv[0]
|
|
<< " <device-path> [-a] [-v] [-V] [-p] [-t]" << endl;
|
|
return -1;
|
|
}
|
|
|
|
device = U2Fob_create();
|
|
|
|
char* arg_DeviceName = argv[1];
|
|
|
|
while (--argc > 1) {
|
|
if (!strncmp(argv[argc], "-v", 2)) {
|
|
// INFO only
|
|
arg_Verbose |= 1;
|
|
}
|
|
if (!strncmp(argv[argc], "-V", 2)) {
|
|
// All logging
|
|
arg_Verbose |= 2;
|
|
U2Fob_setLog(device, stdout, -1);
|
|
}
|
|
if (!strncmp(argv[argc], "-a", 2)) {
|
|
// Don't abort, try continue;
|
|
arg_Abort = false;
|
|
}
|
|
if (!strncmp(argv[argc], "-p", 2)) {
|
|
// Pause at abort
|
|
arg_Pause = true;
|
|
}
|
|
if (!strncmp(argv[argc], "-t", 2)) {
|
|
// Strict timing checks
|
|
arg_Time = true;
|
|
recvTimeout = 1.0;
|
|
}
|
|
}
|
|
|
|
srand((unsigned int) time(NULL));
|
|
|
|
// Start of tests
|
|
//
|
|
CHECK_EQ(U2Fob_open(device, arg_DeviceName), 0);
|
|
|
|
PASS(test_Idle());
|
|
|
|
PASS(test_Init());
|
|
|
|
// Now that we have INIT, get a proper cid for device.
|
|
CHECK_EQ(U2Fob_init(device), 0);
|
|
|
|
PASS(test_BasicInit());
|
|
|
|
PASS(test_Unknown(U2FHID_SYNC));
|
|
|
|
PASS(test_InitOnNonBroadcastEchoesCID());
|
|
PASS(test_InitUnderLock());
|
|
PASS(test_InitSelfAborts());
|
|
PASS(test_InitOther());
|
|
|
|
PASS(test_OptionalWink());
|
|
|
|
PASS(test_Lock());
|
|
|
|
PASS(test_Echo());
|
|
PASS(test_LongEcho());
|
|
|
|
PASS(test_Timeout());
|
|
|
|
PASS(test_WrongSeq());
|
|
PASS(test_NotCont());
|
|
PASS(test_NotFirst());
|
|
|
|
PASS(test_Limits());
|
|
|
|
PASS(test_Busy());
|
|
PASS(test_Interleave());
|
|
PASS(test_LeadingZero());
|
|
|
|
PASS(test_Idle(2.0));
|
|
|
|
PASS(test_NothingOnChannel0());
|
|
PASS(test_OnlyInitOnBroadcast());
|
|
|
|
U2Fob_destroy(device);
|
|
|
|
return 0;
|
|
}
|